RESEARCH FIELD: Slope stability RESEARCH TOPIC: Problems and perspectives in the analysis and mitigation of landslides risk with analytic tools, innovative measurement and calculation methods PARTICIPANTS AND COLLABORATIONS: Anna Maria Ferrero, Giuseppe Mandrone, Cesare Comina, Sabrina Bonetto,Sergio Vinciguerra, Andrea Segalini, Riccardo Roncella, Gianfranco Forlani e Gessica Umili (università di Parma), Anna Facello e Piero Boccardo (Politecnico di Torino), Rita Migliazza (Università statale di Milano) RESEARCH DESCRIPTION: The research evaluates issues related to the analysis of hazard, vulnerability and risk- mitigation in slopes stability. The study is intended to develop the different phases necessary in these cases: construction of a geological and geotechnical model, geomechanical and petrophysical characterization; monitoring of microseismicity, of slow deformation processes and of triggering mechanisms due to dynamic ruptures are also considered; the evaluation of detachment and propagation mechanisms for unstable volumes and possible mitigation of risk are studied. The characterization is carried out on-site, by using monitoring and geophysical measurements both with traditional and advanced techniques, such as photogrammetry and laser scanner. The technical-geological model is represented with 2D and 3D models in a GIS environment. Detachment and propagation are analyzed by numerical modeling methods with continuous or discontinuous approaches (Distinct Element Method and Finite Element Method) depending on the nature of the slope. With regard to the studies of vulnerability and risk in our territorial reality, the morphology typical of rock slopes (with marked steepness) and the high evolution speed have important consequences; in rocks the probability of detachment is assumed (but the volume is estimated) and the sloping paths are studied (e.g. falling rocks and debris flow). Therefore involved volumes and propagation velocities become fundamental parameters for risk assessment. The steepness instead mainly affect the propagation paths and the areas at high risk based on the definition of the of arrest zone. These aspects have led to the development of innovative calculation criteria for the design of protective barriers and the development of monitoring systems of physical and mechanical parameters aimed at risk mitigation. In particular, the results that are obtained by the combination of advanced monitoring and interpretive modeling also allow the development of systems "early warning". LABORATORIES OF THE DST IN USE: On site and laboratory geological-technical characterization RESEARCH PRODUCTS: • Bonetto S., Comina C., Giuliani A. and Mandrone G. “Geological And Geophysical Aid To Model A Small Landslide In Heterogeneous Rock Masses Of The Langhe Hills (Nw Italy)”– proceedings of The Second World Landslide Forum Abstracts WLF2 - 2011– 0375 Rome, 2011. • L. Canelli, A.M. Ferrero, M. Migliazza, and A. Segalini (2012) Debris Flow Risk mitigation by the means of rigid and flexible barriers. Experimental tests and impact analysis. Natural Hazard and Earth System Sciences • Chelli A., Mandrone G. & Truffelli G. (2006) – “Field investigations and monitoring